AQUATIC BIOFUELS NEW OPTIONS FOR BIOENERGY In the Mediterranean Region Antonio Piccolo Link Campus University Rome www.unilink.it

What are aquatic biofuels? Why produce aquatic biofuels? Conversion systems Growth and harvesting Potential for the Mediterranean Region Challenges and Opportunities TM

What are aquatic biofuels?

Why produce aquatic biofuels?

Conversion systems

Growth and harvesting

Potential for the Mediterranean Region

Challenges and Opportunities

WHAT ARE AQUATICBIOFUELS?

Why ALGAE? Does not compete with agriculture High yield per acre Contains no sulphur therefore no SO 2 emissions Non toxic and highly biodegradable Does not require soil for growth Uses as little as 30cm of water per year per hectare (open pond system) Adaptable anywhere even at great distances from water Abatement of CO 2 – carbon neutral

Why ALGAE?

Does not compete with agriculture

High yield per acre

Contains no sulphur therefore no SO 2 emissions

Non toxic and highly biodegradable

Does not require soil for growth

Uses as little as 30cm of water per year per hectare (open pond system)

Adaptable anywhere even at great distances from water

Abatement of CO 2 – carbon neutral

Oil yield per hectare of microalgae significantly exceeds other common oil sources such as soya and rapeseed 39 500 1 190 448 446 1190 39 500 PBR* *PBR – Photo Bio-Reactor 88 times more than soya 33 times more than rapeseed

Photo Bio-Reactors? Using Photo Bio-Reactors (PBR) is expensive but it is a State of the Art Technology, it produces higher yields than other systems. Recent and up to date technologies demonstrate that some PBR’s are not as expensive to produce and could be a solution for developing countries

Microalgae Biofixation Process – with wastewater

Open pond wastewater has demonstrated productivities of 100 tonne/ha/yr tonne per hecatre per year.

AVIATION INDUSTRY TM

Aquatic Biofuels – Challenges, Opportunities and Gains Algae Cost intensive especially for Photo Bio-Reactors may be suitable for Higher Income Countries. Open pond systems are much more viable although real costs are still not available, by-products can however make the process completely viable. Abatement of CO2 Mitigation from the conversion of the algal biomass to renewable fuels – directly substituting fossil fuels – coal and gas Each tonne of microalgae biomass produced = about a tonne of CO2 abated Both algal to bio-fuel technologies are therefore completely Carbon Neutral

Aquatic Biofuels – Challenges, Opportunities and Gains

Algae

Cost intensive especially for Photo Bio-Reactors may be suitable for Higher Income Countries.

Open pond systems are much more viable although real costs are still not available, by-products can however make the process completely viable.

Abatement of CO2 Mitigation from the conversion of the algal biomass to renewable fuels – directly substituting fossil fuels – coal and gas

Each tonne of microalgae biomass produced = about a tonne of CO2 abated

Both algal to bio-fuel technologies are therefore completely Carbon Neutral

Adaptability to Mediterranean Region Algae production with Photo Bio-Reactors (PBR) More suitable for Higher Income Countries (due to higher start-up costs) Algae production with MBP (Microalgae Biofixation Process) More suitable for Lower Income Countries (due to lower start-up costs)

FISH WASTE – From Aquaculture Farms Press the fish waste Oil is extracted through a water separation process at 90 o C Manganese (Mn), methanol (9%) and caustic soda is added. The by-product glycerine is sold to the cosmetic industry and the residues are made into fishmeal. 1kg of fish waste can produce just over 1lt of bio-diesel.

FISH WASTE – From Aquaculture Farms

Press the fish waste

Oil is extracted through a water separation process at 90 o C

Manganese (Mn), methanol (9%) and caustic soda is added.

The by-product glycerine is sold to the cosmetic industry and the residues are made into fishmeal.

1kg of fish waste can produce just over 1lt of bio-diesel.

Aquafinca - Honduras Agifish – Viet Nam

Fish Waste - Key points and feasibility for Mediterranean Region Technology is adaptable and transferable in many regions of the Mediterranean . It can provide livelihoods through the production of fish, and produce local energy free from GHG emissions. Relatively little investment required. Fish waste could also promote more efficient utilization of aquatic living resources and generate additional income for fishers' and fish farmers‘ communities. Adaptable on large fishing trawlers. Fishing Ports

Fish Waste - Key points and feasibility for Mediterranean Region

Technology is adaptable and transferable in many regions of the Mediterranean .

It can provide livelihoods through the production of fish, and produce local energy free from GHG emissions.

Relatively little investment required.

Fish waste could also promote more efficient utilization of aquatic living resources and generate additional income for fishers' and fish farmers‘

communities.

Adaptable on large fishing trawlers.

Fishing Ports

Fish waste – Advantages and Disadvantages The oil produced for bio-diesel is already marketable as fish oil, more fish oil would have to be produced to cater for the demand in bio-diesel this may disrupt fish oil markets. The technology is in place (Viet-Nam and Honduras) and is transferable to regions of the Mediterranean as pilot project studies. Mississippi State University is experimenting using the waste from shrimp, but using a slightly different process.

Fish waste – Advantages and Disadvantages

The oil produced for bio-diesel is already marketable as fish oil, more fish oil would have to be produced to cater for the demand in bio-diesel this may disrupt fish oil markets.

The technology is in place (Viet-Nam and Honduras) and is transferable to regions of the Mediterranean as pilot project studies. Mississippi State University is experimenting using the waste from shrimp, but using a slightly different process.

Aquatic Biofuels – An Integrated Energy Aquaculture System (IEAS)

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